CN104136622A

CN104136622A - Methods and materials for reducing degradation of recombinant proteins

Info

Publication number: CN104136622A
Application number: CN201280070829.8A
Authority: CN
Inventors: W.弗维肯; S.里卡尔特
Original assignee: Oxyrane UK Ltd
Current assignee: Oxyrane UK Ltd
Priority date: 2011-12-30
Filing date: 2012-12-28
Publication date: 2014-11-05
Also published as: JP2015503338A; BR112014015933A2; US20150031081A1; KR20140114818A; WO2013098651A1; CA2859303A1; EP2798074A1; SG11201403506TA

Abstract

Described herein are methods and materials for reducing degradation of recombinant proteins in fungal cells such as Yarrowia.

Description

For reducing method and the material of the degraded of recombinant protein

To the cross reference of related application

The application requires the benefit of priority of the U.S. Provisional Application serial number 61/581,859 of submitting on December 30th, 2011, and its content is by mentioning complete being incorporated to herein.

Invention field

The present invention relates to method and material for reducing the recombinant protein degraded in fungal cell, more specifically, relate to the genetically engineered Ye Shi yeast cell with two kinds of different yapsin peptidase activity defects.

Background of invention

Need efficient expression system to produce the most of bio-pharmaceuticals (for example, recombinant protein) under current exploitation.Expression system combination based on yeast is easy to genetic manipulation and has the also fermentation of the microorganism biological body of the ability of modifying protein of secretion.But recombinant protein is often by intracellular protein enzyme and extracellular protein enzyme liberating.So, need to there is the expression system based on yeast of the recombinant protein degraded of reduction.

Summary of the invention

Presents is the discovery based on following at least partly, i.e. the degraded of recombinant protein reduces in the Ye Shi yeast cell with two kinds of different yapsin peptidase activity YPS1 albumen (pYPS1) and YPS2 albumen (pYPS2) defect.Genetically engineered Ye Shi yeast strain described herein can be used for generating undegradable recombinant protein (for example antibody).

In one aspect, presents is characterised in that a kind of Ye Shi yeast (Yarrowia) cell (for example yarrowia lipolytica cell) of separation, and its genetically engineered transforming as comprises the active defect of pYPS1 and the active defect of pYPS2.In some embodiments, described cell does not generate functional pYPS1 or functional pYPS2 that can detection level.In some embodiments, described cell does not generate the mRNA molecule of detectable encoding function pYPS1 and functional pYPS2.In some embodiments, described YPS1 and YPS2 gene are destroyed in described cell.In some embodiments, described YPS1 and YPS2 open reading-frame (ORF) are deleted.

In yet another aspect, presents is characterised in that the pure culture substantially of yarrowia lipolytica cell, and a large amount of described yarrowia lipolytica cells is comprised the active defect of pYPS1 and the active defect of pYPS2 by genetically engineered transforming as.

Presents feature is also a kind of method of degraded of the target protein for reducing generating in Ye Shi yeast.Described method is included in the nucleic acid of expressing the described target protein of coding in Ye Shi yeast cell described herein.

In yet another aspect, presents is characterised in that a kind of for generating the method for target protein.Described method comprises provides genetically engineered transforming as to comprise the active defect of pYPS1, the active defect of pYPS2, and the Ye Shi yeast cell of the nucleic acid of the described target protein of encoding; And b) under the condition that makes target protein described in described Hemapoiesis, cultivate described cell.

Any cell described herein can be further the active defect of OCH1.

Any cell described herein can further comprise coding alpha-1, the nucleic acid of 2 mannosidases.Alpha-1,2 mannosidases can comprise target sequence with by described alpha-1, and 2 mannosidase targets are to intracellular region chamber.

Any cell described herein can be further the active defect of ALG3.

Any cell described herein can further comprise coding alpha-1, the nucleic acid of 3-glucanotransferase.

Any cell described herein can further comprise the alpha of the Polyglucosidase of encoding and the nucleic acid of beta subunit.

Any cell described herein can further comprise the nucleic acid of coding GlcNAc-transferase I.GlcNAc-transferase I can comprise target sequence with by described GlcNAc-transferase I target to intracellular region chamber.

Any cell described herein can further comprise the nucleic acid of coding GlcNAc-transferase I I.GlcNAc-transferase I I can comprise target sequence with by described GlcNAc-transferase I I target to intracellular region chamber.

Any cell described herein can further comprise the nucleic acid of the galactosyltransferase of encoding.Galactosyltransferase can comprise target sequence with by described galactosyltransferase target to golgi body.

Any cell described herein can further comprise the nucleic acid of coding target protein (for example one of lysosomal protein, pathogenic agent albumen, somatomedin, cytokine, chemokine, antibody or its Fab or two polypeptide chains or fusion rotein).Described antibody can be selected from lower group: in conjunction with the antibody of vascular endothelial growth factor (VEGF), in conjunction with the antibody of EGF-R ELISA (EGFR), in conjunction with the antibody of CD3, in conjunction with the antibody of tumour necrosis factor (TNF), in conjunction with the antibody of TNF acceptor, in conjunction with the antibody of CD20, in conjunction with the antibody of glycoprotein I Ia/IIb acceptor, in conjunction with the antibody of IL2 acceptor, in conjunction with the antibody of CD52, in conjunction with the antibody of CD11a with in conjunction with the antibody of HER2.Described Fab can be selected from lower group: Fab, F (ab ') ₂, Fv and scFv (scFv) fragment.

Presents feature is also a kind of Ye Shi yeast cell of separation, it is genetically engineered transform as and comprises the active defect of (i) pYPS1 and (ii) the active defect of pYPS2, and following one or more: (iii) the active defect of ALG3, (iv) the active defect of OCH1, (v) coding alpha-1, the nucleic acid of 2 mannosidases, (vi) nucleic acid of coding GlcNAc-transferase I, (vii) nucleic acid of coding GlcNAc-transferase I I, (viii) nucleic acid of coding mannosidase II, (ix) coding for alpha-1, the nucleic acid of 3-glucanotransferase, (x) nucleic acid of coding galactosyltransferase, (xi) the coding α of Polyglucosidase and the nucleic acid of β subunit.For example, this type of cell can comprise the active defect of (i) pYPS1; (ii) the active defect of pYPS2; (iii) the active defect of ALG3; (iv) the active defect of OCH1; (v) coding alpha-1, the nucleic acid of 2 mannosidases; (vi) nucleic acid of coding GlcNAc-transferase I; (vii) nucleic acid of coding GlcNAc-transferase I I; (viii) nucleic acid of coding mannosidase II; (ix) coding for alpha-1, the nucleic acid of 3-glucanotransferase; (x) nucleic acid of coding galactosyltransferase; (xi) the coding α of Polyglucosidase and the nucleic acid of β subunit.This type of cell further can comprise the nucleic acid of target protein as described in this article of encoding.

Unless otherwise defined, all technology used herein and scientific terminology have identical meaning with the common understanding of the those of ordinary skill in the affiliated field of the present invention.Although can use in enforcement of the present invention or test to those methods method and material similar with material or that be equal to described herein, below describe exemplary method and material.By mentioning complete include all publications mentioned in this article, patent application, patent, accession number and other reference.In the situation of contradiction, should be with this Shen, comprise that definition is as the criterion.Described material, method and example are only exemplary, and are not intended as restrictive.

Other features and advantages of the present invention see it can is apparent from following detailed Description Of The Invention and claims.

Accompanying drawing summary

Figure 1A is the describing of nucleotide sequence of light chain expression construct (SEQ ID NO:1) and heavy chain expression construct (SEQ ID NO:2).

Figure 1B is the describing of aminoacid sequence of pYPS1 (SEQ ID NO:3) and pYPS2 albumen (SEQ ID NO:4).

Fig. 1 C is the describing of nucleotide sequence (SEQ ID NO:5) of the light chain (LC) of coding Anti-HER 2, and the describing of the aminoacid sequence of LC (SEQ ID NO:6), wherein before LIP2 former leader sequence underline ( former leader sequence before LIP2), V _lterritory sequence underlines with two lines and CK territory underlines with dotted line

Fig. 1 D is the describing of nucleotide sequence (SEQ ID NO:7) of the heavy chain (HC) of coding Anti-HER 2, and the describing of the aminoacid sequence of HC (SEQ ID NO:8), wherein before LIP2 former leader sequence underline ( former leader sequence before LIP2), V _hterritory sequence underlines with two lines cH territory underlines with dotted line and yapsin cleavage site "/" mark.

Fig. 2 is the schematic diagram for the systematics of the bacterial strain of the single target copy construction and integration of alphaHER2 heavy chain and light chain.

Fig. 3 is the photo of the western trace of the Anti-HER 2 of expressing in Yarrowia lipolytica strain Po1d.Separate detection light chain and heavy chain.Light chain exists with the correct molecular weight of 25kDa, but shows the trend of dimerization.Heavy chain also detects with the correct molecular weight of 50 kDa, but most of degraded product with the molecular weight with about 32kDa exists.

Fig. 4 is the schematic diagram of the construct for destroying YPS gene.

Fig. 5 is the photo of two western traces of the heavy chain that obtains from the culture supernatants of single yapsin deletion mycopremna.In the little figure in top, for Δ yps2 disappearance, Δ yps3 disappearance, Δ yps5 disappearance, Δ yps7 disappearance, and Δ ypsx deletion mycopremna, and control strain (ctrl, yapsin does not lack), heavy chain detects at two time points (48h and 96h).In the little figure in bottom, to clone and control strain for separately two of Δ yps1 disappearance and Δ yps4 deletion mycopremna, heavy chain detects at 96h time point.

Fig. 6 is from Δ yps1 deletion mycopremna, URA-auxotroph Δ yps1 deletion mycopremna, the dual deletion mycopremna of Δ yps1 Δ yps2, the dual deletion mycopremna of Δ yps1 Δ yps3, the dual deletion mycopremna of Δ yps1 Δ yps4, and the photo of the western trace of the heavy chain of the culture supernatants of control strain (yapsin does not lack) acquisition.

Fig. 7 is the photo of SDS-PAGE (SDS-PAGE) gel of the silver dyeing of the restructuring Anti-HER 2 of expressing in Δ yps1 Δ yps2 and wild-type (ctrl) bacterial strain.Reductibility (left side) and irreducibility (right side) condition are shown.The derivative degraded product of heavy chain asterisk mark.Under irreducibility condition, heavy chain protein hydrolysate exists with monomer and dimer in control strain.Under reductive condition, observe the glycosylated of heavy chain and not glycosylated pattern.H2L2: the Ab of assembling completely; HC: heavy chain; LC: light chain.

Detailed Description Of The Invention

Usually, presents provides and has used method and the material for example, with the degraded of recombinant protein in genetically engineered cells reduction fungal cell such as the Ye Shi yeast (Yarrowia lipolytica) of two kinds of different yapsin peptase YPS1 albumen (pYPS1) and YPS2 albumen (pYPS2) defect or other relative species of bifurcation yeast.Yapsin has restricted substrate specificity and aspartic acid endopeptidase that the glycophosphatidyl inositol (GPI) of locating on cell surface connects.Yapsin can for example, at the C of paired alkaline residue (Methionin-arginine and arginine-arginine) end; At the C of single basic site (with respect to Methionin, arginine not being had a preference for) end; And cut between alkaline residue.Referring to such as Gagnon-Arsenault etc., FEMS Yeast Res6:966 – 978 (2006).

Can use genetically engineered cells described herein to generate target recombinant protein.In some embodiments, target recombinant protein can betransported by one or more steps of Yarrowia lipolytica (or other relative species of dimorphic fungi) Secretory Pathway, causes it to be carried out N-glycosylation by host cell device.

The suitable target protein generating of can recombinating (for example comprises pathogenic agent protein, lysosomal protein, glucocerebrosidase, cerebrosidase or galactocerebrosidase) (glucocerebrosidase, cerebrosidase, or galactocerebrosidase), Regular Insulin, hyperglycemic-glycogenolytic factor, somatomedin, cytokine, chemokine, can for example, in conjunction with the fusions (, protein-Fc) of the protein of Fc acceptor, antibody or its fragment or any protein and antibody or antibody fragment.The non-limitative example of pathogenic agent protein comprises Toxoid,tetanus; Diphtheria toxoid; And virus surface proteins (for example, cytomegalovirus (CMV) Glycoprotein B, H and gCIII; Human immunodeficiency virus 1 (HIV-1) envelope glycoprotein; Rous sarcoma virus (RSV) envelope glycoprotein; Hsv (HSV) envelope glycoprotein; Dust bar virus (EBV) envelope glycoprotein; Varicella zoster virus (VZV) envelope glycoprotein; Human papillomavirus (HPV) envelope glycoprotein; Influenza virus glycoprotein; With hepatitis family surface antigen).Somatomedin for example comprises, vascular endothelial growth factor (VEGF), rhIGF-1 (IGF), Delicious peptide (BMP), G-CSF (G-CSF), granulocyte-macrophage colony stimutaing factor (GM-CSF), nerve growth factor (NGF); Neurotrophic factor, platelet-derived somatomedin (PDGF), erythropoietin (EPO), thrombopoietin (TPO), tubocurarine (Myostatin) (GDF-8), GDF-9 (GDF9), Prostatropin (bFGF or FGF2), Urogastron (EGF), pHGF (HGF).Cytokine comprises interleukin, and (for example, IL-1 to IL-33 is such as IL-1, IL-2, IL-3, IL-4, IL-5, IL-6, IL-7, IL-8, IL-9, IL-10, IL-12, IL-13 or IL-15) and Interferon, rabbit (for example, interferon beta or interferon-gamma).Chemokine comprises for example I-309, TCA-3, MCP-1, MIP-1 α, MIP-1 β, RANTES, C10, MRP-2, MARC, MCP-3, MCP-2, MRP-2, CCF18, MIP-1 γ, Eotaxin, MCP-5, MCP-4, NCC-1, Ck β 10, HCC-1, eotaxin (Eotaxin), MCP-5, MCP-4, NCC-1, Ck β 10, HCC-1, leucotaxin (Leukotactin)-1, LEC, NCC-4, TARC, PARC or eotaxin-2.(for example also comprise tumour glycoprotein, tumor associated antigen), for example, carcinomebryonic antigen (CEA), people's Saliva Orthana, HER-2/neu and prostate specific antigen (PSA) [Henderson and Finn, Adv in Immunology, 62, pp.217-56 (1996)].

In some embodiments, target protein is relevant with lysosomal storage disease disease (LSD).The non-limitative example of the target protein relevant with LSD for example comprises, alpha-L-iduronidase (alpha-L-iduronidase), beta-D-tilactase (beta-D-galactosidase), beta-glucuroide, beta-hexosaminidase (beta-hexosaminidase), beta-D-mannosidase, alpha-L-fucosidase (alpha-L-fucosidase), ARB (arylsulfatase B), ARSA (arylsulfatase A), alpha-N-ethanoyl galactosamindase (alpha-N-acetylgalactosaminidase), aspartylglycosaminidase (aspartylglucosaminidase), IDS (iduronate-2-sulfatase), alpha-glucosaminide-N-acetyl-transferase (alpha-glucosaminide-N-acetyltransferase), beta-D-glucuronidase (beta-D-glucoronidase), Unidasa (hyaluronidase), alpha-L-mannosidase, alpha-neuraminidase (alpha-neuraminidase), phosphotransferase (phosphotransferase), acid lipase enzyme (acid lipase), acid ceramidase (acid ceramidase), sphingomyelinase (sphingomyelinase), thioesterase (thioesterase), cathepsin K (cathepsin K), and lipoprotein lipase (lipoprotein lipase).

In some embodiments, target protein is antibody.Although antibody can be any antibody, the non-limitative example of antibody comprises the antibody in conjunction with CD3, such as OKT3, and Teplizumab, or Otelixizumab; In conjunction with the antibody of tumour necrosis factor (TNF), such as adalimumab (Adalimumab) or infliximab (Infliximab) in conjunction with the antibody of TNF acceptor, such as etanercept (Etanercept) in conjunction with the antibody of CD20, such as ibritumomab tiuxetan (Ibritumomab tiuxetan) or Rituximab (Rituximab) in conjunction with the antibody of glycoprotein I Ia/IIb acceptor (GPIIa/IIb-R), such as ReoPro (Abeiximab) in conjunction with the antibody of IL2 acceptor, such as basiliximab (Basiliximab) or daclizumab (Daclizumab) in conjunction with the antibody of EGF-R ELISA (EGFR), such as Cetuximab (Cetuximab) in conjunction with the antibody of CD52, such as Alemtuzamab in conjunction with the antibody of CD11a, such as efalizumab (Efalizumab) in conjunction with the antibody of vascular endothelial growth factor (VEGF), such as rhuMAb-VEGF (Bevacizumab) or in conjunction with the antibody of HER2, such as Herceptin (Trastuzamab)

Target protein can also be fusion rotein.Fusion rotein for example comprises, (i) any protein described herein or its fragment and (ii) fusions of antibody or its fragment.They can also be any of (i) and multiple heterologous protein, for example be derived from the signal sequence of irrelevant protein, the part in immunoglobulin heavy chain constant region or this type of region, label aminoacid sequence (for example fluorescin, such as green fluorescent protein or its variant), or can be used for the fusions of the sequence (for example poly Histidine such as six Histidines, FLAG label, or elastin-like polypeptide (ELP)) of affinity purification.

Also interested is antibody fragment (comprising antigen binding antibody fragment).This type of fragment can be disclosed any antibody in presents.As used herein, term " antibody fragment " refer to (a) Fab or (b) can with the antibody Fc part of Fc acceptor interaction.Fab for example can be, Fab, F (ab ') ₂, Fv and scFv (scFv) fragment.ScFv fragment is the weight of antibody and the Single polypeptide chain of variable region of light chain that comprises scFv source.In addition, double antibody [Poljak (1994) Structure2 (12): 1121-1123; Hudson etc. (1999) J.Immunol.Methods 23 (1-2): 177-189] and intracellular antibody (intrabody) [Huston etc. (2001) Hum.Antibodies 10 (3-4): 127-142; Wheeler etc. (2003) Mol.Ther.8 (3): 355-366; Stocks (2004) Drug Discov.Today9 (22): 960-966] be the example of the recombinant protein that can generate.

Target protein can for example, for example, by optional one or more (2,3,4 or 5) nucleic acid encoding in one or more (2,3,4 or 5) expression vector of one or more polypeptide chain of coding target protein.Therefore, two of the Fab of for example antibody or antibody chains (for example light chain and heavy chain or a kind of or both fragment) can be expressed by the single open reading-frame (ORF) (ORF) in single expression vector or by two ORF in single expression vector or two expression vectors that separate.The antibody scFV of the light chain that therefore, contains antibody and variable region of heavy chain generally can be encoded by single ORF.On the other hand, the most normal (but not necessarily) can be by the separately ORF expression in two general (but also not necessarily) each nucleic acid separating in the expression vector separating for the light chain of complete IgG antibody, Fab fragment or F (ab ') 2 fragments and heavy chain.Be interpreted as and be applicable to the other oroteins that for example, formed by one or more (2,3,4 or 5) different polypeptide chains about the above-described principle of identity of the Fab of antibody and antibody.

Also can be by target protein and polymkeric substance, carrier, vehicle, immunotoxin, maybe can detect for example, one or more connections in (, fluorescence, luminous or radioactivity) module.For example, target protein can be connected with polyoxyethylene glycol, described polyoxyethylene glycol can be for improving the molecular weight of small protein matter and/or extending the circulation residence time.

Genetically engineered cells

Genetically engineered cells described herein (for example Ye Shi yeast cell) contains pYPS1 and the active defect of pYPS2.For example, this type of genetically engineered cells can not generate functional pYPS1 and/or functional pYPS2 that can detection level.Can for example, by for example deleting or destroy at least two endogenous yapsin genes, YPS1 (Genolevures Ref No.YALI0E10175g; 2912589) and YPS2 (Genolevures Ref No.YALI0E22374g gene I/D:; Gene I/D: 2912981) (they encode respectively pYPS1 and pYPS2) produce this type of defect in Ye Shi yeast cell.The aminoacid sequence of pYPS1 and pYPS2 is listed (referring to Figure 1B) respectively in SEQ ID NO:3 and SEQ ID NO:4.Also can be respectively referring to GenBank accession number XP_503768.1, GI:50552716 and XP_504265.1, GI:50553708.

Homologous recombination can be for destroying native gene.For example, can build in such a way " Gene Replacement " carrier, make to comprise selection marker thing gene.Selection marker thing gene can with 5 ' and 3 ' two ends be operatively connected with the part of gene that is enough to the length that mediates homologous recombination.Selection marker thing can be one of many genes, and described gene complementation host cell auxotroph or antibiotics resistance is provided comprises URA3, LEU2 and HIS3 gene.Other suitable selection marker thing comprises CAT gene, and it gives chlorampenicol resistant to yeast cell, or lacZ gene, and it causes due to the blue colonies of expressing due to beta-galactosidase enzymes.Then, use method as known in the art (seeing below) by the linearizing DNA fragmentation transfered cell of Gene Replacement carrier.Can determine that linear fragment is to genomic integration and the destruction to gene based on selection marker thing, and can confirm by for example Southern engram analysis.In some embodiments, the destruction of gene generates that do not produce can the encoding function pYPS1 of detection level and the genetically engineered bacterial strain of the mRNA molecule of functional pYPS2.

After it uses in selection, can remove selection marker thing from the genome of host cell by such as Cre-loxP system (seeing the open text No.20060014264 of (2002) the Ann.Rev.Genetics 36:153-173 such as such as Gossen and U. S. application).The method that mark is removed is called " eliminating (curing) ".

Or, can build in such a way Gene Replacement carrier, make to comprise a part for the gene that will destroy, wherein this part lacks any native gene promoter sequence, and the inactive segments of encode none gene coded sequence or encoding gene encoding sequence.Active be less than approximately 10% fragment of gene of protein of (for example, be less than approximately 9%, be less than approximately 8%, be less than approximately 7%, be less than approximately 6%, be less than approximately 5%, be less than approximately 4%, be less than approximately 3%, be less than approximately 2%, be less than approximately 1% or 0%) that " inactive segments " refers to that coding for example has the protein that generates from the complete encoding sequence of gene.By in described a part of insertion vector of gene, make to be operatively connected without known promoter sequence and gene order, but a part for terminator codon and transcription termination sequence and gene order is operatively connected in such a way.Subsequently, can be by this carrier a part of neutral line in gene order, and be transformed in cell.By single homologous recombination, this linearized vector is integrated subsequently in the endogenous counterpart of gene.

In some embodiments, can import or expressed rna molecule, its interference has the functional expression of the protein of pYPS1 and/or pYPS2 activity.RNA molecule comprises for example siRNA (siRNA), short hairpin RNA (shRNA), sense-rna or Microrna (miRNA).

In some embodiments, promotor or the enhancer element of one or more native genes of the protein that can change encodes has pYPS1 and/or pYPS2 activity, make to change the expression of its coded protein.

Be suitable for genetically engineered cell and comprise Ye Shi yeast cell, such as yarrowia lipolytica cell bifurcation yeast cell relevant with other.As herein regulation genetically engineered before, this type of cell can be available from multiple commercial source and resources for research institute, such as for example American type culture collection (ATCC) (Manassas, VA).In one embodiment, use the po1d bacterial strain of Yarrowia lipolytica.Po1d bacterial strain is accession number 139 times at Centre International de Ressources Microbienne, and CLIB culture collection center (CLIB culture collection) can obtain.In po1d bacterial strain, secretion property alkalescence extracellular protease AEP (gene XPR2) is deleted, and acid extracellular protease AXP1 (Gene A XP) can be deleted or be controlled by the pH of fermention medium by the gene disruption of target gene and insertion.

Genetically engineered cells described herein further can comprise other aspartate protease, and the aspartate protease of for example classifying under EC 3.4.23, such as the defect of protease A (by PEP4 genes encoding).

Genetically engineered cells described herein further can comprise the nucleic acid of coding target protein (for example above-described target protein, such as antibody).Term " nucleic acid " and " polynucleotide " are used interchangeably in this article, refer to RNA and DNA, comprise cDNA, genomic dna, synthetic DNA and the DNA (or RNA) that contains nucleic acid analog.Nucleic acid can have any three-dimensional structure.Nucleic acid can be two strands or strand (, sense strand or antisense strand).The non-limitative example of nucleic acid comprises RNA, nucleic acid probe and the primer of the separation of the DNA of the separation of gene, gene fragment, exon, intron, messenger RNA(mRNA) (mRNA), transfer RNA (tRNA), ribosome-RNA(rRNA), siRNA, Microrna, ribozyme, cDNA, recombination of polynucleotide, branch's polynucleotide, plasmid, carrier, any sequence, any sequence, and nucleic acid analog." polypeptide " and " protein " is used interchangeably in this article, means the chain that amino acid whose any peptide connects, and not length of tube or posttranslational modification.

" nucleic acid of separation " refers to and the nucleic acid that is present in naturally occurring genomic other nucleic acid molecule and separates, comprises the nucleic acid of the one or both sides flank of for example, nucleic acid in naturally occurring genome (, Yeast genome) conventionally.As used herein, term " separation " also comprises the nucleotide sequence that any non-natural exists with regard to nucleic acid, because the sequence that this type of non-natural exists is not present in nature, and there is no just continuous sequence in naturally occurring genome.

The nucleic acid separating for example can be, DNA molecular, as long as one of nucleotide sequence that just the DNA molecular flank in naturally occurring genome has found is conventionally removed or lacks.So, the nucleic acid separating as the differing molecular that does not rely on other sequence (for example includes but not limited to, the nucleic acid of chemosynthesis or process the cDNA or the genomic DNA fragment that generate by PCR or restriction endonuclease) DNA molecular that exists and (for example mix carrier, self-replicating type plasmid, virus, any Paramyxo virus, retrovirus, slow virus, adenovirus or simplexvirus) in, or mix the DNA in prokaryotic organism or Eukaryotic genomic dna.In addition, the nucleic acid of separation can comprise the DNA molecular such as the part as heterozygosis or integrative nucleic acid through engineered nucleic acid.Think and be present in for example cDNA library or genomic library, or for example, hundreds of nucleic acid between millions of other nucleic acid in the gel that contains genomic dna restrictive diges-tion thing (running gel) section not the nucleic acid separating.

As used herein, term " external source " with regard to nucleic acid and particular host cell, mean not to be present in (and can not available from) as occurring in nature find as described in any nucleic acid of specific cells.So, once think that in importing host cell, the nucleic acid that non-natural exists is external source for host cell.Importantly, notice that the nucleic acid that non-natural exists can contain nucleic acid subsequence or the nucleic acid sequence fragments that occurring in nature finds, as long as whole nucleic acid is not present in occurring in nature.For example, contain the naturally occurring nucleic acid of nucleic acid molecule right and wrong of genomic dna sequence at expression vector, once and so import in host cell, for host cell, be external source, because whole nucleic acid molecule (genomic dna adds carrier DNA) is not present in occurring in nature.So, think and be not present in as a whole any carrier, self-replicating type plasmid or virus (for example, retrovirus, adenovirus or simplexvirus) the naturally occurring nucleic acid of right and wrong of occurring in nature.As can be seen here, think by genomic DNA fragment and the naturally occurring nucleic acid of cDNA right and wrong of PCR or restriction endonuclease processing, because the molecule separating that they can not find with occurring in nature exists.Be also shown in thus the naturally occurring nucleic acid of any nucleic acid right and wrong that the arrangement can not find with occurring in nature contains promoter sequence and polypeptid coding sequence (for example, cDNA or genomic dna).Naturally occurring nucleic acid can be specific cells external source.For example, once be imported in yeast y cell from the whole karyomit(e) of yeast x cellular segregation, described karyomit(e) is exogenous nucleic acid for yeast y cell.

Can use several different methods such as spheroplast technology or full cell lithium chloride yeast conversion method by recombinant nucleic acid with in expression vector form such as plasmid, phage, transposon, clay or virion transfered cell.Can be used for other method of cell transformation plasmid or linear nucleic acid carrier to be recorded in for example U.S. Patent No. 4,929,555; Hinnen etc. (1978) Proc.Nat.Acad.Sci.USA 75:1929; Ito etc. (1983) J.Bacteriol.153:163; U.S. Patent No. 4,879,231; And (1987) Gene 59:115 such as Sreekrishna.Also can use electroporation and PEG1000 resting cell code, as by Cregg and Russel, Methods in Molecular Biology:Pichia Protocols, Chapter 3, Humana Press, Totowa, N.J., pp.27-39 (1998) describes.

Can operation technique, include but not limited in the situation that lacks the biochemical product (due to the auxotroph of cell) needing, cultivate auxotroph cell after conversion, select and detect new phenotype, or existing cultivation in antibiotic situation to select the yeast cell through transforming, in the situation of the resistant gene that described microbiotic contains in shortage transformant, be toxicity for yeast.Also can in genome, select and/or confirm transformant by expression cassette is integrated into, it can be assessed by for example Southern trace or pcr analysis.

By carrier transfered cell such as Ye Shi yeast cell in before, carrier can be grown in bacterial cell such as intestinal bacteria (Escherichia coli, E.coli) (for example, amplification).Can by cause carrier DNA from as known in the art any method of bacterium environment (milieu) purifying from bacterial cell carrier of separating DNA.Can extensively extract with phenol, chloroform and ether the carrier DNA of purifying, to guarantee there is not Escherichia coli protein in plasmid DNA prepared product.

Conformability carrier is disclosed in for example U.S. Patent No. 4,882,279.Conformability carrier generally comprises at least the first continuous arrangement sequence that can insert DNA fragmentation, selected marker gene and second and can insert DNA fragmentation.First and second can insert DNA fragmentation respectively for example, for approximately 200 (, approximately 250, approximately 300, approximately 350, approximately 400, approximately 450, approximately 500 or approximately 1000 or more) length of individual Nucleotide, and have and the nucleotide sequence of a part of homology of the genomic dna of the species that will transform.The nucleotides sequence of the gene of interest that contains expression (for example, the gene of coding target protein) is listed in this carrier and can inserts between DNA fragmentation and insert first and second, no matter before marker gene or after.Can be by the linearizing of conformability carrier, carry out yeast conversion afterwards so that the integration of interested nucleotide sequence to host cell gene group.

The feature of expression vector can be for example, recombinant nucleic acid under the control of yeast (, Yarrowia lipolytica, land yeast or other relevant dimorphism yeast species) promotor (it can express them in yeast).Suitable Yeast promoter comprises TEF1, HP4D, GAP, POX2, ADC1, TPI1, ADH2, POX and Gal10 promotor.See such as Madzak etc., (2000) J.Mol.Microbiol.Biotechnol.2:207-216; Guarente etc. (1982) Proc.Natl.Acad.Sci.USA 79 (23): 7410.Other suitable promotor is recorded in for example Zhu and Zhang (1999) Bioinformatics 15 (7-8): 608-611 and U.S. Patent No. 6,265,185.

Promotor can be composition or induction type (opportunistic).Composition promotor is interpreted as that it expresses the promotor of constant or substantially constant under the culture condition of standard.Inducible promoter is the promotor of one or more inducement signals of response (cue).For example, can be by inducible promoter Chemical Regulation (for example, its transcriptional activity is subject to chemical inducer such as ethanol, tsiklomitsin, steroid, metal or other micromolecular existence or lacks the promotor regulating) or physics adjusting (for example, its transcriptional activity is subject to physics inducement thing such as the existence of light or high or low temperature or lacks the promotor regulating).One or more transcription factor indirect regulation inducible promoters that also can directly regulate by self being subject to chemistry or physical signalling.

Genetically engineered cells described herein may further include a place or other modification of many places, makes cell on target protein, generate the N-glycan of expecting.Described other modification can comprise following one or more: (i) deletion or destruction coding have the native gene of the protein of N-glycosylation activity; (ii) import the recombinant nucleic acid (, expressing the mutein with N-glycosylation activity) that coding has the mutant forms of the protein (for example, endogenous or exogenous protein) of N-glycosylation activity; (iii) the RNA molecule of the functional expression of the protein with N-glycosylation activity is disturbed in importing or expression; (iv) import the recombinant nucleic acid (, expressing the protein with N-glycosylation activity) of wild-type (for example, the endogenous or external source) protein that coding has N-glycosylation activity; And (v) change coding and have promotor or the enhancer element of one or more native genes of the protein of N-glycosylation activity, so to change the expression of its coded protein.Being to be understood that (ii) comprises for example uses the Gene Replacement native gene with respect to the native gene coding of replacement like this with the protein of larger N-glycosylation activity.Genetic engineering also comprise change coding have N-glycosylation activity protein native gene with generate have interpolations (for example, heterologous sequence), delete or replace (for example, suddenly change such as point mutation; Conservative or non-conservative sudden change) protein.Mutation specific (for example can be introduced, site-directed mutagenesis or homologous recombination) or (for example can introduce at random, can be by cytochemistry mutagenesis, as be recorded in for example Newman and Ferro-Novick (1987) J.Cell Biol.105 (4): 1587).Modification for example can comprise that those are recorded in WO 2011/061629 and WO 2011/039634.

This type of other genetic modification can cause following one or more: (i) rising of one or more N-glycosylation activity in genetically modified cell, (ii) reduction of one or more N-glycosylation activity in genetically modified cell, (iii) variation distributing in the location of one or more N-glycosylation activity in genetically modified cell or born of the same parents, or (iv) ratio vary of one or more N-glycosylation activity in genetically modified cell.Be to be understood that, the increase of N-glycosylation live vol can by have N-glycosylation activity one or more protein cross express, the copy number of native gene increases (for example, gene replication) or stimulates due to the promotor of native gene or the variation of enhanser being raise by the protein expression of genes encoding.The reduction of one or more N-glycosylation activity for example can be, owing to (having mutant forms that N-glycosylation changes one or more active protein, dominant negative form) cross and express, import or express and reduce one or more disturbance RNA molecules of one or more protein expressions with N-glycosylation activity, or delete or destroy coding and have one or more native genes of the protein of N-glycosylation activity.

Should be appreciated that genetically engineered modification can be opportunistic.For example, can use such as locus specificity DNA recombinase such as Cre-loxP system (seeing the open text No.20060014264 of (2002) the Ann.Rev.Genetics 36:153-173 such as such as Gossen and U. S. application) to carry out conditionality and delete gene.

The protein with N-glycosylation activity comprises that for example outer chains is extended (Outer CHain elongation, OCH1) albumen, α-1, glycosylation 3 (the Asparagine Linked Glycosylation 3 that 2-mannosidase, l-asparagine connect, ALG3) albumen, Ι-1,3-glucanotransferase, Polyglucosidase, mannosidase II, GlcNAc-transferase I (GnT I), GlcNAc-transferase I I (GnT II) or galactosyltransferase (Gal T).

For example, the N-glycan of expecting on secreted protein can be based on Man ₅glcNAc ₂or Man ₃glcNAc ₂structure.For example, in order to generate Man ₅glcNAc ₂basic structure, Ye Shi yeast cell can be engineered for making Ι-1, and 2-mannoside enzymic activity raises in intracellular region chamber, and OCH1 activity decreased.In order to generate Man ₃glcNAc ₂basic structure, the activity decreased of ALG3 and (in some embodiments) OCH1, and Ι-1, the activity of 2-mannosidase and in some embodiments, Ι-1, the activity rising of 3-glucanotransferase.Can be by by the further engineered N-glycan overview (profile) that changes the protein generating in this type of yeast cell for containing following one or more activity of cell: GlcNAc transferase I (GnT I) activity, mannosidase II activity, GlcNAc transferase I I (GnT II) activity, Polyglucosidase II activity and galactosyltransferase (Gal T) activity.For example, generating Man ₅glcNAc ₂or Man ₃glcNAc ₂in the Ye Shi yeast cell of N-glycan, expressing GnT I causes GlcNAc module to be transferred to Man ₅glcNAc ₂or Man ₃glcNAc ₂n-glycan, makes to generate respectively GlcNAcMan ₅glcNAc ₂or GlcNAcMan ₃glcNAc ₂n-glycan.Generating GlcNAcMan ₅glcNAc ₂in the cell of N-glycan, express mannosidase II and cause two mannose residues from GlcNAcMan ₅glcNAc ₂n-glycan removes to generate GlcNAcMan ₃glcNAc ₂n-glycan.Generating GlcNAcMan ₃glcNAc ₂in the cell of N-glycan, express GnT II and cause another GlcNAc module to be transferred to GlcNAcMan ₃glcNAc ₂n-glycan is to generate GlcNAc ₂man ₃glcNAc ₂n-glycan.Generating GlcNAcMan ₃glcNAc ₂or GlcNAc ₂man ₃glcNAc ₂the cells Gal T of N-glycan causes semi-lactosi to be transferred to GlcNAcMan ₃glcNAc ₂or GlcNAc ₂man ₃glcNAc ₂n-glycan is to generate GalGlcNAcMan ₃glcNAc ₂or Gal ₂glcNAc ₂man ₃glcNAc ₂n-glycan.In some embodiments, can express Polyglucosidase (for example,, by express alpha and β subunit) to improve Man ₃glcNAc ₂the generation of basic structure.

Coding has the gene of protein of N-glycosylation activity can be from any species that contain this genoid.The exemplary fungal species of the gene of the protein that can obtain encodes has N-glycosylation activity includes but not limited to abnormal pichia spp (Pichia anomala), ox pichia spp (Pichia bovis), Canada's pichia spp (Pichia canadensis), Ka Shi pichia spp (Pichia carsonii), pichia farinose (Pichia farinose), fermentation pichia spp (Pichia fermentans), Pichia fluxuum, Pichia membranaefaciens (Pichia membranaefaciens), Pichia membranaefaciens (Pichia membranaefaciens), candida valida (Candida valida), Candida albicans (Candida albicans), Candida ascalaphidarum, Candida amphixiae, antarctic candida (Candida Antarctica), Atlantic Ocean candiyeast (Candida atlantica), Candida atmosphaerica, cockroach candiyeast (Candida blattae), the raw candiyeast of fruit (Candida carpophila), Candida cerambycidarum, Candida chauliodes, Yanhusuo candiyeast (Candida corydalis), Candida dosseyi, candida dubliniensis (Candida dubliniensis), Candida ergatensis, Candida fructus, Candida glabrata (Candida glabrata), fermentation candiyeast (Candida fermentati), candida guilliermondi (Candida guilliermondii), the bright candiyeast of unexpected rival (Candida haemulonii), Candida insectamens, Candida insectorum, Candida intermedia (Candida intermedia), Candida jeffresii, candida kefyr (Candida kefyr), candida krusei (Candida krusei), Candida lusitaniae (Candida lusitaniae), Candida lyxosophila, maltose candiyeast (Candida maltosa), film mould candiyeast (Candida membranifaciens), plum forests candiyeast (Candida milleri), olive candiyeast (Candida oleophila), Oregon candiyeast (Candida oregonensis), Candida parapsilosis (Candida parapsilosis), tangerine candiyeast (Candida quercitrusa), shehatae candida (Candida shehatea), Candida temnochilae, fiber candiyeast (Candida tenuis), candida tropicalis (Candida tropicalis), Candida tsuchiyae, Candida sinolaborantiu, soybean candiyeast (Candida sojae), Candida viswanathii (Candida viswanathii), Candida utilis (Candida utilis), Pichia membranaefaciens (Pichia membranaefaciens), Pichia silvestris, Pichia membranaefaciens, Pichia chodati, Pichia membranaefaciens, Pichia membranaefaciens, Pichia minuscule, pichia spp, Pichia pseudopolymorpha, Pichia quercuum, Pichia robertsii, Pichia saitoi, Pichia silvestrisi, Pichia strasburgensis, Lu Sheng pichia spp (Pichia terricola), Pichia vanriji, Pseudozyma Antarctica, Rhodosporidium toruloides (Rhodosporidium toruloides), rhodotorula glutinis (Rhodotorula glutinis), saccharomyces bayanus (Saccharomyces bayanus), saccharomyces bayanus (Saccharomyces bayanus), Saccharomyces momdshuricus, saccharomyces uvarum (Saccharomyces uvarum), saccharomyces bayanus, yeast saccharomyces cerevisiae (Saccharomyces cerevisiae), saccharomyces bisporus (Saccharomyces bisporus), Bernard Chevallier yeast (Saccharomyces chevalieri), Dare cloth yeast (Saccharomyces delbrueckii), saccharomyces exiguus (Saccharomyces exiguous), saccharomyces fermentati (Saccharomyces fermentati), saccharomyces fragilis (Saccharomyces fragilis), Saccharomyces marxianus, saccharomyces mellis (Saccharomyces mellis), Luo Si yeast (Saccharomyces roseii), saccharomyces rouxii (Saccharomyces rouxii), saccharomyces uvarum (Saccharomyces uvarum), Wei Shi yeast (Saccharomyces willianus), Lu Shi class yeast (Saccharomycodes ludwigii), the multiple film spore yeast (Saccharomycopsis capsularis) of pod, the multiple film yeast (Saccharomycopsis fibuligera) of button capsule, the multiple film yeast of button capsule, Endomyces hordei, Endomycopsis fobuligera.Saturnispora saitoi, eight spore fission yeasts (Schizosaccharomyces octosporus), schizosaccharomyces pombe (Schizosaccharomyces pombe), prosperous yeast (Schwanniomyces occidentalis) is permitted in west, Dare is furnished with spore torula (Torulaspora delbrueckii), Dare is furnished with spore torula, Saccharomyces dairensis, Dare is furnished with spore torula, Torulaspora fermentati, saccharomyces fermentati (Saccharomyces fermentati), Dare is furnished with spore torula, Luo Si has spore torula (Torulaspora rosei), Luo Si has spore torula, Dare is furnished with spore torula, Luo Si yeast, Dare is furnished with spore torula, Dare cloth yeast, Dare is furnished with spore torula, Dare cloth yeast, Zygosaccharomyces mongolicus, Dorulaspora globosa, spherical Dbaly yeast (Debaryomyces globosus), ball is intended torula (Torulopsis globosa), trichosporon cutaneum (Trichosporon cutaneum), trigonopsis variabilis (Trigonopsis variabilis), Williopsis californica, Saturn is intended Weir yeast (Williopsis saturnus), two spore zygosaccharomyceses (Zygosaccharomyces bisporus), two spore zygosaccharomyceses, Debaryomyces disporua, saccharomyces bisporus (Saccharomyces bisporas), two spore zygosaccharomyceses, saccharomyces bisporus, Zygosaccharomyces mellis, Zygosaccharomyces priorianus, Zygosaccharomyces rouxiim, Lu Shi zygosaccharomyces (Zygosaccharomyces rouxii), bar form combining yeast (Zygosaccharomyces barkeri), saccharomyces rouxii, Lu Shi zygosaccharomyces, sauce wine with dregs zygosaccharomyces (Zygosaccharomyces majori), Saccharomyces rousii, abnormal pichia spp (Pichia anomala), Pichia bovis, Canada's pichia spp (Pichia Canadensis), Ka Shi pichia spp (Pichia carsonii), Pichia farinosa (Pichia farinose), fermentation pichia spp (Pichia fermentans), Pichia fluxuum, Pichia membranaefaciens (Pichia membranaefaciens), Pichia pseudopolymorpha, Pichia quercuum, Pichia robertsii, Pseudozyma Antarctica, Rhodosporidium toruloides (Rhodosporidium toruloides), Rhodosporidium toruloides, rhodotorula glutinis (Rhodotorula glutinis), saccharomyces bayanus (Saccharomyces bayanus), saccharomyces bayanus, saccharomyces bisporus, yeast saccharomyces cerevisiae, Bernard Chevallier yeast, Dare cloth yeast, saccharomyces fermentati, saccharomyces fragilis, Lu Shi class yeast, schizosaccharomyces pombe, prosperous yeast is permitted in west, Dare is furnished with spore torula, ball has spore torula (Torulaspora globosa), variation trigonopsis variabilis (Trigonopsis variabilis), Williopsis californica, Saturn is intended Weir yeast, two spore zygosaccharomyceses, Zygosaccharomyces mellis, Lu Shi zygosaccharomyces, any other fungi (for example, yeast) as known in the art or described herein.

Exemplary lower eukaryotes also comprises the multiple species of Aspergillus (Aspergillus), includes but not limited to light blue grey aspergillus (Aspergillus caesiellus), Aspergillus candidus (Aspergillus candidus), Aspergillus carneus (Aspergillus carneus), rod aspergillus (Aspergillus clavatus), Aspergillus deflectus (Aspergillus deflectus), flavus (Aspergillus flavus), Aspergillus fumigatus (Aspergillus fumigatus), Aspergillus amstelodami (Aspergillus glaucus), Aspergillus nidulans (Aspergillus nidulans), aspergillus niger (AN), Aspergillus ochraceus (Aspergillus ochraceus), aspergillus oryzae (Aspergillus oryzae), Aspergillus parasiticus (Aspergillus parasiticus), broom shape aspergillus (Aspergillus penicilloides), Aspergillus restrictus (Aspergillus restrictus), Aspergillus sojae (Aspergillus sojae), aspergillus sydowii (Aspergillus sydowi), Aspergillus tamarii (Aspergillus tamari), terreus (Aspergillus terreus), Aspergillus ustus (Aspergillus ustus), or aspergillus versicolor (Aspergillus versicolor).

The exemplary protozoon genus of the gene of the protein that can obtain encodes has N-glycosylation activity includes but not limited to Blastocrithidia (Blastocrithidia), Crithidia (Crithidia), Endotrypanum (Endotrypanum), Herpetomonas (Herpetomonas), leishmaniasis (Leishmania), Leptomonas (Leptomonas), Phytomonas (Phytomonas), Trypanosoma (Trypanosoma) (for example, trypanosoma bocagei (T.bruceii), castellanella gambiense (T.gambiense), trypanosoma rhodesiense (T.rhodesiense), and schizotrypanum cruzi (T.cruzi)), and Wallaceina.

For example, the gene of coding GnT I can be available from people (Swiss protein accession number P26572), rat, Arabidopsis (Arabidopsis), mouse or Drosophila (Drosophila); The gene of coding GntII can be available from people, rat (Swiss protein accession number Q09326), Arabidopsis or mouse; The gene of coding Man II can be available from people, rat, Arabidopsis, mouse, Drosophila (Swiss protein accession number Q24451); And the gene of coding GalT can be available from people (Swiss protein accession number P15291), rat, mouse or ox.

In some embodiments, except having the active defect of pYPS1 and pYPS2, genetically engineered cell described herein can also comprise one or more following modifications.For example, genetically engineered cell can further lack OCH1 (GenBank accession number: AJ563920) gene or its gene product (mRNA or protein).In some embodiments, genetically engineered cell can further lack ALG3 ( accession number: XM_503488, Genolevures reference: YALI0E03190g) gene or its gene product (mRNA or protein).In some embodiments, genetically engineered cell is further expressed (for example, cross and express) α-1,3-glucanotransferase (for example, ALG6, accession number: XM_502922, Genolevures reference: YALI0D17028g) albumen.In some embodiments, further express alpha-1 of genetically engineered cell, 2-mannosidase (for example, Genbank accession number: AF212153) albumen.In some embodiments, genetically engineered cell is further expressed GlcNAc transferase I (for example, Swiss Prot. accession number P26572) albumen.In some embodiments, genetically engineered cell is further expressed mannosidase II albumen or its catalytic domain (for example, Swiss Prot. accession number Q24451).In some embodiments, genetically engineered cell is further expressed galactosyltransferase I albumen or its catalytic domain (for example, Swiss Prot. accession number P15291).In some embodiments, genetically engineered cell is further expressed GlcNAc transferase I I albumen or its catalytic domain (for example, Swiss Prot. accession number Q09326).In some embodiments, genetically engineered cell is further expressed alpha or the beta subunit (or alpha and beta subunit) of the glucuroide II of glucuroide II such as Yarrowia lipolytica, trypanosoma bocagei (Trypanosoma brucei) or AN (Aspergillus niger).Genetically engineered cell can have any combination of these modifications.

For example, in some embodiments, genetically engineered cell can lack OCH1 gene, and express alpha-1,2-mannosidase, GlcNAc transferase I, mannosidase II and galactosyltransferase I.In some embodiments, genetically engineered cell can lack ALG3 gene, and express alpha-1,2-mannosidase, GlcNAc transferase I, GlcNAc transferase I and galactosyltransferase I.This type of genetically engineered cell further can express alpha-1,3-glucanotransferase and/or express alpha and the beta subunit of glucuroide II and/or lack OCH1 gene.

One of multiple this proteinoid can be the fusion rotein that contains allos target sequence.For example, α-1,2-mannosidase can have HDEL endoplasmic reticulum (ER)-reservation aminoacid sequence.Should be appreciated that and any protein engineering with N-glycosylation activity can be transformed into the fusion rotein that comprises HDEL sequence.Other oroteins can have the heterologous sequence to golgi body by protein target.For example, can use by front 100 N terminal amino acids of yeast Kre2p genes encoding, by front 36 N terminal amino acids (Swiss Prot. accession number P38069) of yeast saccharomyces cerevisiae Mnn2 genes encoding or by front 46 N terminal amino acids of yeast saccharomyces cerevisiae Mnn2p genes encoding by protein target to gorky.The nucleic acid of the protein that therefore, coding will be expressed in fungal cell can comprise the nucleotide sequence to the target sequence of intracellular region chamber by the protein target of coding of encoding.For example, can be by α-1,2-mannosidase target is to ER, and can be by GnT I, GnTII, mannosidase and Gal T target to golgi body (Golgi).

Certainly dissimilar (for example with the cell of wanting marking protein at target protein or the protein source with N-glycosylation activity, different plant species) the embodiment of cell in, the nucleic acid of coded protein can be carried out codon optimized to express in interested specific cells.For example, can coding be carried out codon optimized to express in such as Yarrowia lipolytica at yeast cell from the nucleic acid with the glycosylated protein of N-of trypanosoma bocagei (Trypanosoma brucei).This type of codon optimized can be for improving the expression of protein in cells of interest.As known in the art for the nucleic acid of coded protein is carried out to codon optimized method, and be recorded in (the Biotechnol.Prog. (2004) 20 (2): 443-448) such as such as Gao, (the J.Biol.Chem. (1982) 257 (6): 2036-3031) such as Kotula etc. (Nat.Biotechn. (1991) 9,1386 – 1389) and Bennetzen.Table 1 has shown the codon selection of Yarrowia lipolytica.Data source is from 2,945,919 codons that are present in 5,967 kinds of encoding sequences.The content of table 1 is selected database available from codon, can it see that World Wide Web is in kazusa.or.jp/codon/cgi-bin/showcodon.cgi? species=284591.

Table 1

Yarrowia lipolytica codon uses table

Table hurdle (Tablefield) shows with [triplet] [frequency: every thousand] ([number]).

In some embodiments, can be by people's target protein transfered cell, and can suppress (for example, deleting or sudden change) and have one or more endogenous yeast proteins of N-glycosylation activity.Technology for " humanization " fungi glycosylation pathway differ is recorded in (2003) Proc.Natl.Acad.Sci.USA 100 (9): the 5022-5027 such as such as Choi; Vervecken etc. (2004) Appl.Environ.Microb.70 (5): 2639-2646; And Gerngross (2004) Nature Biotech.22 (11): 1410-1414.

Involve for example protein expression or exogenous protein (comprising the mutant forms of endogenous protein) in genetic engineering and express in situation about changing, can measure whether marking protein of genetically engineered cell by multiple technologies.For example, can use respectively for example Northern trace or RT-PCR analysis or Western engram analysis to detect the existence of mRNA or the protein self of coded protein.Can, by using multiple technologies, comprise that subcellular fractionation and immunofluorescence analysis have the inner cellular localization of the protein of N-glycosylation activity.

Comprise for detection of the glycosylated method of target protein laser desorption/ionization flight time mass spectrum art (SELDI-TOF MS) that DNA sequencer assists (DSA), the auxiliary carbohydrate electrophoresis (FACE) of fluorophore or surface to strengthen.For example, analysis can utilize DSA-FACE, wherein for example, by glycoprotein sex change, then immobilization on film for example.Then, can carry out reducing sugar albumen by suitable reductive agent such as dithiothreitol (DTT) (DTT) or beta-mercaptoethanol.Can be with acid such as iodoacetic acid by the sulfhedryl group carboxylation of protein.Then, can use enzyme such as N-Glycosylase F from protein release N-glycan.Optionally, N-glycan can be rebuild, and carry out derivatize by reductive amination.Then, can the N-glycan of derivatize is concentrated.The equipment that is suitable for N-glycan analysis for example comprises, 377 DNA sequencers (Applied Biosystems).For example can use 3.1 softwares (Applied Biosystems) carry out implementation data analysis.Optionally, the Mannoproteins (mannoprotein) that can further process separation with one or more enzymes is to confirm its N-glycan state.Other method of N-glycan analysis (for example comprises the high pressure liquid chromatography (HPLC) (HPLC) of for example mass spectrometry (for example MALDI-TOF-MS), normal phase, anti-phase and ion exchange chromatography, in the time of unmarked glycan, detect by pulsed amperometric meter, if and by suitable glycan mark, by UV absorbancy or fluorescence).Be also shown in (2001) Glycobiology 11 (4) such as Callewaert: (2006) Bioconjug.Chem.17 (2): the 559-564 such as 275-281 and Freire.

Any genetic modification of the genetically engineered cell of describing in this article at inducement signal (for example, chemistry or physical signalling) in existence be induction or opportunistic situation in, optionally, can be by genetically engineered cell before nucleic acid is imported, during or there is afterwards the situation of inductor in cultivate.For example, importing after the nucleic acid of coding target protein, cell can be exposed to the chemical inducer that can promote one or more protein expressions with N-glycosylation activity.In the situation that the conditionality that has one or more protein of N-glycosylation activity in multiple inducement signal induction is expressed, can make cell contact with multiple inductor.

Can separate the target protein that is modified to the N-glycan that comprises expectation from genetically engineered cell.Modified target protein can be maintained in yeast cell, and after lysis, discharge, or the mechanism that can provide via the encoding sequence by instructing albumen from emiocytosis (for exogenous nucleic acid natural or engineered enter expression vector in) is secreted into modified target protein in nutrient solution.Can confirm by the multiple standard scheme existing for detection of protein the existence of the modified target protein in cell lysate or nutrient solution.This type of scheme can include but not limited to use immunoblotting or radioimmunoassay precipitation, the combination to the specific part of target protein (or target protein self) changing or the enzyme specific activity of testing modified target protein (or target protein self) of the specific antibody of target protein (or target protein self) to changing.

In some embodiments, the N-glycan that the target protein at least about 25% separating from genetically engineered cell contains expectation.For example, separate from genetically engineered cell at least about 27%, at least about 30%, at least about 35%, at least about 40%, at least about 45%, at least about 50%, at least about 55%, at least about 60%, at least about 65%, at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90% or at least about 95% or can contain the N-glycan of expectation at least about 99% target protein.

In some embodiments, can be by freezing, the freeze-drying of modified target protein separating or immobilization and for example, in the lower storage of suitable condition (, its target protein of allowing change retains biologic activity).

Through the culture of engineered cell

Presents also provides the pure culture substantially of any genetically engineered cell described herein.As used herein, " the pure culture substantially " of genetically engineered cell is the following culture of described cell, and wherein in culture, being less than of viable cell sum approximately 40% (, is less than approximately: 35%; 30%; 25%; 20%; 15%; 10%; 5%; 2%; 1%; 0.5%; 0.25%; 0.1%; 0.01%; 0.001%; 0.0001%; Or even still less) be the viable cell different from genetically engineered cell, for example, bacterium, fungi (comprising yeast), mycoplasma or protozoan cell.Term " about " in the present context mean relevant per-cent can be on the per-cent of regulation or under 15% per-cent of specified percentage.So, for example, approximately 20% can be 17% to 23%.This type of culture of genetically engineered cell comprises cell and growth, storage or transhipment substratum.Cultivating son can be liquid, semisolid (for example, gel substratum) or freezing.Substratum is included in liquid or in semisolid medium/on growth or at storage or transhipment substratum, comprise the cell of storage in refrigerated storage or transhipment substratum or transhipment.Culture for example, in culture vessel or storage vessel or substrate (, culture dish, flask or pipe or storage bottle or pipe).

Can be by genetically engineered cell described herein for example, store with freeze drying cell in such as the damping fluid of glycerine or sucrose for example containing lyophilized vaccine with freezing cell suspending liquid.Or, can be by them for example with for example dry by fluidised bed drying or spraying, or the dried cellular group storage that obtains of any other suitable drying means.

Below embodiment of the invention process.They should not be construed as by any way and limit the scope of the invention.

Embodiment

Embodiment 1

antibody gene is imported in Yarrowia lipolytica

The aminoacid sequence of Anti-HER 2 heavy chain and light chain is available from Carter etc., Proc Natl Acad Sci USA, 89 (10): 4285 – 4289 (1992); And Ward etc., Appl Environ Microbiol., 70 (5): 2567 – 2576 (2004).By related amino acid sequence reverse translation, carry out codon optimizedly for Yarrowia lipolytica, and by GenArt, Regensburg Germany is synthetic.Possible in the situation that, avoid the region of very high (>80%) or low-down (<30%) GC content.During optimizing process, also avoid following cis acting sequence motif: inner TATA frame, chi site and ribosome entry site(RES), be rich in AT or be rich in tract, tumor-necrosis factor glycoproteins and RNA secondary structure and (implicit) donor splicing site and acceptor site of GC.

In order to allow the secretion of protein, the encoding sequence of Lip2 albumen " front former " signal (being then the encoding sequence of peptide linker " GGG ") is added into 5th ' district of encoding sequence each in light chain and heavy chain.Also 5 ' interpolation CACA enhancer element of each initiator codon (ATG) in light chain and heavy chain encoding sequence.The gained construct of coding light chain is the length of 769 Nucleotide, and contains 5 ' to 3 ' the following territory forming: cacaATGprepro signal, variable region (V _l), and constant region (C _l).The nucleotide sequence of light chain (LC) construct is presented in Figure 1A (SEQ ID NO:1).The LC albumen of coding is 251 amino acid whose length and approximately 25 kDa.Fig. 1 C has presented the aminoacid sequence of LC, and wherein before LIP2, former leader sequence underlines, and VL territory sequence underlines with two lines and CK territory underlines with dotted line

The gained construct of encoding heavy chain (HC) is the length of 1482 Nucleotide, and contains 5 ' to 3 ' the following territory forming: cacaATGprepro signal, variable region (V _h) and three constant region (C _h1-3).C is crossed in " hinge " district _h1 and C _h2.The nucleotide sequence of heavy chain construct is presented in Figure 1A (SEQ ID NO:2).The heavy chain protein matter of coding is 486 amino acid whose length and approximately 55 kDa.Fig. 1 D has presented the aminoacid sequence of HC, and wherein before LIP2, former leader sequence underlines, V _hterritory sequence underlines with two lines and CH territory underlines with dotted line

Utilize URA3 or LIP2 locus that the construct of the construct of coding HER2 light chain and coding HE2 heavy chain is cloned in pJME carrier with BamHI/AvrII fragment separately, be used for the genomic targeted integration of Yarrowia lipolytica, and be called pJME927PTLipUra3exPOX2 preproHerHC or pJME923PTUraLeu2ExPOX2 preproHerLC.Do not use transposon element.PJME plasmid is a kind of shuttle vectors, and it can copy in intestinal bacteria or Yarrowia lipolytica, and contains bacterium and Yarrowia lipolytica specific sequence.The bacterium part of plasmid is derived from plasmid pHSS6, and comprises bacterium replication orgin (ori) and give the kalamycin resistance gene (KanR) of the resistance to kantlex.The integration box part of plasmid contains selection marker thing gene (for example LEU2 or URA3) and expression cassette, and this expression cassette is configured to hp4d or POX2 promotor and multiple clone site (MCS) to insert α HER2 light chain or heavy chain encoding sequence with the terminator of LIP2 gene to meet the mode of reading frame.Before transformed yarrowia lipolytica cell, plasmid is digested to discharge integration box with NotI.

To import Yarrowia lipolytica strain Po1d (in (MatA ura3-302 leu2-270 xpr2-322) through the heavy chain expression plasmid of NotI digestion.Integration by Southern analysis confirmation heavy chain expression box to URA3 locus.For the bacterial strain of construction expression whole antibody, will import in heavy chain expression bacterial strain through the light chain of NotI digestion.In addition the integration to LIP2 locus by Southern analysis confirmation light chain expression box.Fig. 2 has described bacterial strain systematics.

Embodiment 2

the qualification of the cleavage site of antibody

Transformant being positive aspect heavy chain and light chain plasmid is cultivated 96 hours in SuperT rich medium.By the supernatant liquor results of the culture from 4 different clones, and stand Western engram analysis.Use the monoclonal anti-human Kappa free light chain antibody (4C11) that generates in mouse (Product#1939, ) detection light chain.Use monoclonal anti human IgG (the gamma chain specificity) antibody (from the Product#I5885 of Sigma) generating in mouse to detect heavy chain.Light chain exists with correct molecular weight (25kDa), but shows the trend of dimerization.Heavy chain also detects with correct molecular weight (50 kDa), but most of degraded product with the molecular weight with about 32kDa exists.Referring to Fig. 3.

In order to identify the degradation site by the heavy chain of Yarrowia lipolytica Po1d Hemapoiesis, use Protein G chromatography purification heavy chain product, and stood N end peptide sequencing.This has disclosed main antibody and has cut at C _hlys-Lys key place in 1-hinge area occurs.

Embodiment 3

the structure of the single yapsin knock-out bacterial strain of Yarrowia lipolytica

Whether be responsible for degraded heavy chain in order to measure yapsin proteolytic enzyme, generate single yapsin and knock out Yarrowia lipolytica strain.The sequence of the following yapsin3 sample gene of Yarrowia lipolytica (Yl) is available from center, state-run biotechnology data storehouse (National Center for Biotechnology database) (World Wide Web is in ncbi.nlm.nih.gov):

YPS1:YALI0E10175g gene I/D: 2912589, its pYPS1 that encodes

YPS2:YALI0E22374g gene I/D: 2912981, its pYPS2 that encodes

YPS3:YALI0E20823g gene I/D: 2911836, its pYPS3 that encodes

YPS4:YALI0D10835g gene I/D: 2910442, its pYPS4 that encodes

YPS5:YALI0A16819g gene I/D: 2906333, its pYPS5 that encodes

YPSX:YALI0C10135g gene I/D: 7009445, its pYPSX that encodes

YPS7:YALI0E24981g gene I/D: 2912672, its pYPS7 that encodes

YPSXp:YALI0E34331g gene I/D: 2912367, its pYPSXp that encodes

Use primer pair amplification in the promotor (" P ") of each yapsin open reading-frame (ORF) (ORF) target sequence flank and terminator (" T) district with acquisition P and T fragment.Then, use primer pair amplification P and T fragment, then be cloned in the NotI intestinal bacteria module of OXYP plasmid, described primer pair comprises unique clone (restriction) site (ISce1 and ICeu1), and allows that P and T fragment merge during PCR subsequently.Therefore, each final destruction construct (box) contains NotI restriction site at each end, and the corresponding circle of sensation of P and T fragment comprises two clones mentioned above (restriction) site, one for inserting Yarrowia lipolytica mark, and one for inserting the promotor being operatively connected with interested gene, make to destroy construct and also can be used as targeted integration construct.In Fig. 4 schematic representation destruction construct.

Each yapsin is destroyed to box to be independently transformed in above-described Yarrowia lipolytica po1d antibody expression bacterial strain.Confirm the destruction of locus by Southern trace or pcr analysis.To yps1, yps2, yps3, yps4, yps5 and yps7 obtain single yapsin deletion mycopremna.

To represent that uniqueness clone and non-yapsin that single destruction is sub lack separately cultivation in the SuperT rich medium of control strain (ctrl) in shaking flask.Culture supernatant sample is gathered 48 and 96 hours time after inoculum, and use the gamma chain specific anti-human IgG antibody (Sigma, I5885, monoclonal anti human IgG) generating in mouse to stand Western engram analysis with the degraded of assessment heavy chain.Do not observe cross reactivity with light chain.For Δ yps2, Δ yps3, Δ yps5, Δ yps7 and Δ ypsx deletion mycopremna with respect to contrast, were not observed the reduction of proteolytic degradation in the time of 48 or 96 hours.Referring to the little figure in top of Fig. 5.

For Δ yps1 and Δ yps4 deletion mycopremna, will in two of the each bacterial strain SuperT substratum that are cloned in shaking flask, cultivate, and gather culture supernatant sample when after inoculum 96 hours, and with respect to control strain to its assessment heavy chain degraded.For Δ yps1 bacterial strain, although still there is degraded widely, compare the 32kDa degradation production amount that detects reduction with control strain with Δ yps4.Referring to the little figure in bottom of Fig. 5.

For the degraded in further assessment Δ yps1 deletion mycopremna, bacterial strain is cultivated in superT substratum, and 24h after inoculum, 40h, 48h, 60h, gathers culture supernatant sample when 72h and 96h, and with respect to the degraded of control strain assessment heavy chain.For all time points, observe the minimizing of 32kDa protein hydrolysate compared with control strain.At time point afterwards, detect more degraded product, but its still than the degraded of observing in control strain in lower level.In these result instruction Δs yps1 bacterial strain, there is the part of proteolytic activity to reduce.

Whether can further reduce proteolysis for the destruction of measuring two yapsin genes, in Δ yps1 background, destroy second yapsin gene.Generate following 4 kinds of bacterial strains: Δ yps1 Δ yps2, Δ yps1 Δ yps3, Δ yps1 Δ yps4 and Δ yps1 Δ yps7.Correct destruction by Southern analysis confirmation to gene.

By Δ yps1 Δ yps2, Δ yps1 Δ yps3 and Δ yps1 Δ yps4 bacterial strain and control strain (non-yapsin disappearance, Δ yps1, and Δ yps1 URA-auxotroph) are cultivated.Supernatant samples is gathered for 96 hours after inoculum, and stand Western trace.As shown in Fig. 6, in Δ yps3.1 Δ yps3.2 bacterial strain, do not observe heavy chain degraded product.But, do not observe the overall increase of total length heavy chain product (50 kDa) amount.At Δ yps1 Δ yps3, in Δ yps1 Δ yps4 and control strain, detect heavy chain degraded product.

In Δ yps1 Δ yps2 bacterial strain, measure the amount of active secretion property antibody, and via ELISA by the amount comparison of itself and non-destruction bacterial strain.Do not detect the increase of overall functionality secretion property product.

The antibody that is derived from Δ yps1 Δ yps2 bacterial strain of Protein G purifying shows the shortage completely of heavy chain degraded product on the SDS-PAGE gel of silver dyeing.Referring to Fig. 7.

Other embodiment

Although the present invention is described in conjunction with its detailed description, aforementioned specification intention illustrates and does not limit the scope of the invention, and it is by the circumscription of claims.Other side, advantage and modification are within the scope of the appended claims.

Claims

1. Ye Shi yeast (Yarrowia) cell for separation, its genetically engineered transforming as comprises pYPS1 (YPS1 albumen) active defect and the active defect of pYPS2 (YPS2 albumen).

2. the cell of claim 1, wherein said cell is Yarrowia lipolytica (Yarrowia lipolytica) cell.

3. the cell of claim 1 or claim 2, wherein said cell further comprises the nucleic acid of the target protein of encoding.

4. the cell of claim 3, wherein said target protein is lysosomal protein, pathogenic agent albumen, somatomedin, cytokine, chemokine, antibody or its Fab one or two polypeptide chains or fusion rotein.

5. the cell of claim 4, wherein said antibody is selected from lower group: in conjunction with the antibody of vascular endothelial growth factor (VEGF), in conjunction with the antibody of EGF-R ELISA (EGFR), in conjunction with the antibody of CD3, in conjunction with the antibody of tumour necrosis factor (TNF), in conjunction with the antibody of TNF acceptor, in conjunction with the antibody of CD20, in conjunction with the antibody of glycoprotein I Ia/IIb acceptor, in conjunction with the antibody of IL2 acceptor, in conjunction with the antibody of CD52, in conjunction with the antibody of CD11a with in conjunction with the antibody of HER2.

6. the cell of claim 4, wherein said Fab is selected from lower group: Fab, F (ab ') ₂, Fv and scFv (scFv) fragment.

7. the cell of any one in claim 1-6, wherein said cell is further the active defect of OCH1.

8. the cell of any one in claim 1-7, wherein said cell comprises coding alpha-1, the nucleic acid of 2 mannosidases.

9. the cell of claim 8, wherein said alpha-1,2 mannosidases comprise target sequence with by described alpha-1, and 2 mannosidase targets are to intracellular region chamber.

10. the cell of any one in claim 1-9, wherein said cell is further the active defect of ALG3.

The cell of any one in 11. claim 1-10, wherein said cell further comprises coding alpha-1, the nucleic acid of 3-glucanotransferase.

The cell of any one in 12. claim 1-11, described cell further comprises the alpha of the Polyglucosidase of encoding and the nucleic acid of beta subunit.

13. the cell of any one in claim 1-12, the nucleic acid that wherein said cell comprises coding GlcNAc-transferase I.

The cell of 14. claims 13, wherein said GlcNAc-transferase I comprise target sequence with by described GlcNAc-transferase I target to intracellular region chamber.

The cell of any one in 15. claim 1-14, the nucleic acid that wherein said cell comprises coding GlcNAc-transferase I I.

The cell of 16. claims 15, wherein said GlcNAc-transferase I I comprise target sequence with by described GlcNAc-transferase I I target to intracellular region chamber.

17. the cell of any one in claim 1-16, described cell further comprises the nucleic acid of the galactosyltransferase of encoding.

The cell of 18. claims 17, wherein said galactosyltransferase comprise target sequence with by described galactosyltransferase target to golgi body.

The cell of any one in 19. claim 1-18, wherein said cell does not generate functional pYPS1 or functional pYPS2 that can detection level.

The cell of any one in 20. claim 1-19, wherein said cell does not generate the mRNA molecule of detectable encoding function pYPS1 and functional pYPS2.

The cell of any one in 21. claim 1-20, wherein said YPS1 and YPS2 gene are destroyed in described cell.

22. the cell of any one in claim 1-21, wherein said YPS1 and YPS2 open reading-frame (ORF) are deleted.

Substantially the pure culture of 23. yarrowia lipolytica cells, a large amount of described yarrowia lipolytica cells is comprised the active defect of pYPS1 and the active defect of pYPS2 by genetically engineered transforming as.

The Ye Shi yeast cell of 24. 1 kinds of separation, it is genetically engineered transform as and comprises the active defect of (i) pYPS1 and (ii) the active defect of pYPS2, and following one or more: (iii) the active defect of ALG3, (iv) the active defect of OCH1, (v) coding alpha-1, the nucleic acid of 2 mannosidases, (vi) nucleic acid of coding GlcNAc-transferase I, (vii) nucleic acid of coding GlcNAc-transferase I I, (viii) nucleic acid of coding mannosidase II, (ix) coding for alpha-1, the nucleic acid of 3-glucanotransferase, (x) nucleic acid of coding galactosyltransferase, (xi) the coding α of Polyglucosidase and the nucleic acid of β subunit.

25. the cell of claim 24, wherein said cell further comprises the nucleic acid of the target protein of encoding.

26. 1 kinds of methods for reducing the degraded of the target protein generating in Ye Shi yeast, described method is included in the nucleic acid of expressing the described target protein of coding in the Ye Shi yeast cell of any one in claim 1-25.

27. 1 kinds for generating the method for target protein, and described method comprises a) provides genetically engineered transforming as to comprise the active defect of pYPS1, the active defect of pYPS2, and the Ye Shi yeast cell of the nucleic acid of the described target protein of encoding; And b) under the condition that makes target protein described in described Hemapoiesis, cultivate described cell.